JPH08187727A - Thermosetting resin mixer - Google Patents

Abstract

PURPOSE: To provide an apparatus which can easily discharge to remove a remaining resin in a thermosetting resin mixer by a pneumatic blow without using an organic solvent in the mixer of a two-liquid reaction type. CONSTITUTION: An apparatus for mixing a main agent with a curing agent immediately before molding a thermosetting resin has a groove shape for reversely feeding a liquid at the time of rotating a rotor in the shape of the rotor 2 of a dynamic mixer in a mixing chamber 4 and a structure having no back pressure valve at a mixed liquid discharge port 14, thereby discharging the residual resin by a pneumatic blow.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a thermosetting resin which is hardened by reacting with a mixture of two or more resin components consisting of a main agent such as an epoxy resin and a curing agent, immediately before being injected into a molding die. It relates to a mixing device. More specifically, in such a thermosetting resin mixing device, after mixing, it is possible to easily discharge and remove the resin (or resin component) remaining in the mixing chamber by compressed air blow in the organic solvent. The present invention relates to a mixing device that does not require cleaning by.

[0002]

2. Description of the Related Art Conventionally, when a thermosetting resin is used and the thermosetting resin is supplied into a molding die for molding, the main component of the thermosetting resin and the curing agent are separately separated until just before molding. It is circulated in the path, and at the time of molding, each switching valve of the main agent and the curing agent is switched to the discharge side at the same time to feed the liquid into the mixing chamber of the resin mixing device.
While mixing liquids, it is performed to inject into a predetermined mold from a discharge port. The rotor of the dynamic mixer (mixin grouter) has the function of sending the mixed solution to the discharge side at the same time as mixing the two solutions. Therefore, the mixed solution passes through the mixing chamber and does not stay sufficiently in the mixing chamber. Is discharged from the discharge port, and in some cases, the mixture is discharged insufficiently from the discharge port. In order to solve this shortage of residence time, a back pressure valve is provided at the discharge port, and this back pressure valve fills the mixing chamber with the mixed liquid, and the mixture liquid is discharged from the discharge port only when a predetermined pressure is applied. When the discharge of the mixture is completed, each switching valve is switched to return to the circulation state. At this time, the mixed solution remains in the mixing chamber, and if left as it is, it cures. Therefore, in order to prevent this, it is necessary to immediately wash the inside of the mixing chamber with an organic solvent after the switching is completed.

However, this cleaning operation using an organic solvent is not only labor-intensive and unfavorable in the working environment, and it is desirable to eliminate it as much as possible.

Therefore, it is conceivable to discharge and remove (clean) the residual resin in the mixing chamber by compressed air blow, but in the conventional mixing apparatus, it is attempted to clean the inside of the mixing chamber by compressed air blow without using an organic solvent. Then, since the back pressure valve has a retention portion, the residual resin is clogged here. Therefore, in the case of molding with a resin having a particularly fast reaction, it is indispensable to wash with an organic solvent promptly after the end of discharge.

[0005]

SUMMARY OF THE INVENTION Therefore, the present invention relates to a multi-liquid reaction type thermosetting resin mixing apparatus, in which after mixing two components (or three or more components), the inside of the mixing chamber can be washed by compressed air blow. Another object of the present invention is to provide a thermosetting resin mixing device having a structure having no retention part in the mixing chamber.

[0006]

According to the present invention, in a thermosetting resin mixing apparatus, the rotor shape of a dynamic mixer in a mixing chamber has a groove shape that allows the liquid to flow backward when the rotor is rotated, and By using a mixing device that does not have a back pressure valve at the discharge port, cleaning by compressed air blow, which has been impossible in the past, is made possible.

In such a mixing device of the present invention, a three-way valve is provided in each of the main agent discharge side flow path and the hardening agent discharge side flow path communicating with the upper part of the mixing chamber, and the main agent and the hardening agent are separated by the three-way valve. It is possible to switch between the case where each inflow path and each discharge side flow path are communicated with each other and the case where each inflow path and each circulation side flow path are communicated with each other, and the three-way valve is provided with a compressed air inflow port, and each inflow path is provided. It is preferable to have a structure in which compressed air can be introduced into the mixing chamber when the channel and each circulation side channel are in communication.

Further, in the mixing apparatus of the present apparatus, a jacket for passing hot and cold water may be provided around the mixing chamber to heat and cool the resin in the mixing chamber.

[0009]

The present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a two-component reactive thermosetting resin mixing apparatus according to an embodiment of the present invention, and FIG. 2 is a development view of a mixin grouter in the same embodiment.

The two-component reactive thermosetting resin mixing apparatus of this embodiment is suitable for mixing epoxy resin components. Among them, epoxy resin (for example, "Epiclon 850"), glass beads, and Isophoronediamine is used as a curing agent using a mixture of expandable particles and a reaction accelerator, and is preferably used when mixing these, but is not limited to this, unsaturated polyester resin, crosslinkable It is also applicable to the mixing of other two-component reaction type thermosetting resin such as dicyclopentadiene resin.

The mixing apparatus 1 according to this embodiment comprises a rotor of a dynamic mixer (hereinafter referred to as "mixin grouter") 2, a rotor driving shaft 3, a mixing chamber 4, a heating / cooling jacket 5, a hot / cold water inlet 6, and a hot / cold water inlet 6. Cold water outlet 7, hardening agent inflow path 8, hardening agent discharge side flow path 9, hardening agent circulation side flow path 10, main agent inflow path 11, main agent discharge side flow path 1
2, main agent circulation side flow path 13, discharge port 14, 3-way valve 15, 1
6, having compressed air inlets 17 and 18.

The mixin rotor 2 provided in the mixing chamber 4 is provided with a plurality of grooves on its peripheral surface in the horizontal direction and the oblique direction as shown in FIG. 2, and is fixed to the shaft 3 at the center by screws. The mixin rotor 2 is rotated by the rotation of the shaft 3, and the main component of the thermosetting resin and the curing agent discharged from the discharge-side channels 12 and 9 into the mixing chamber 4 are mixed with stirring. Has been done.

The jacket 5 provided so as to surround the mixing chamber 4 is for heating or cooling the mixing chamber 4. When the resin is discharged, warm water or the like is caused to flow from the hot / cold water inlet 6 to the hot / cold water outlet 7 to mix the resin. By raising the temperature of the resin in the chamber 4, the resin viscosity is lowered to facilitate the discharge of the resin from the mixing chamber, and after the discharge is finished, cooling water or the like is caused to flow to lower the temperature of the resin in the mixing chamber 4 to make the mixing chamber 4 The curing reaction of the resin remaining inside is suppressed.

In the mixing device 1, the curing agent inflow passage 8 is provided above the mixing chamber 4 and upstream of the curing agent discharge side passage 9.
A three-way valve 15 connected to the curing agent circulation side flow passage 10 and a three-way valve 16 connected to the inflow passage 11 and the main agent circulation side flow passage 13 are provided on the upstream side of the main agent discharge side flow passage 12. Before the resin is discharged, the one-way valves 15 and 16 stand by in a direction in which the curing agent and the main agent circulate, respectively, so that the curing agent and the main agent are not supplied into the mixing chamber 4. When the resin is discharged, the three-way valves 15 and 16 are simultaneously switched to the direction in which the curing agent and the main agent are discharged toward the mixing chamber 4. Therefore, the hardener and the main agent, which are supplied in a fixed amount, pass through the hardener discharge side flow channel 9 and the main agent discharge side flow channel 12, respectively, and flow into the mixing chamber 4.

The thermosetting resin curing agent and the main agent that have flowed into the mixing chamber 4 are agitated and mixed by the mixin rotor 2 and the discharge port 1 provided at the bottom of the mixing chamber 4
It is discharged from No. 4 and supplied into the molding die.

To end the discharge, the three-way valves 15 and 16 are simultaneously switched to the directions in which the curing agent and the main agent circulate. Then, the curing agent and the main agent are respectively in the curing agent circulation side flow path 1
0, passes through the main agent circulation side flow path 13 and returns to the circulation path.

In the mixing device of the present invention, the groove shape of the mixin rotor 2 is formed so that the liquid flows backward when the rotor rotates, and the mixin rotor 2 rotates in the direction shown in FIG. 2 during discharge. The resin passing through the inside of the mixing chamber 4 is pushed upward, and the mixed liquid is sufficiently retained in the mixing chamber 4 and discharged from the discharge port 14 even without a back pressure valve.

When the discharge is completed, the mixing chamber 4
Since the resin remains inside, compressed air is made to flow into the mixing chamber 4 from the compressed air inlets 17 and 18 provided in the three-way valve through the flow paths 12 and 9, and the residual resin in the mixing chamber 4 is removed by this compressed air. It is discharged from the discharge port 14. As the compressed air, normally, pressurized air at room temperature is used, but it may be heated if necessary.

At this time, if there is a back pressure valve in the chamber as in the conventional mixing device, the resin stays in this portion,
Draining by compressed air becomes difficult. Therefore, in the apparatus of the present invention, since the back pressure valve is not provided, and as a result, almost no residual resin is generated, cleaning with a solvent is unnecessary, and the residual resin can be discharged only by compressed air blow.

[0021]

The thermosetting resin mixing apparatus according to the present invention can discharge residual resin by compressed air blow and does not require cleaning using an organic solvent, thus reducing labor.
Not only is it effective in improving the environment of the workplace, but it is also effective in preventing organic solvents from mixing into the resin and reducing material costs.

Furthermore, since the structure is simple, there is an effect that maintenance is easy.

[Brief description of drawings]

FIG. 1 is a schematic view of a two-component resin mixing apparatus according to an embodiment of the present invention.

FIG. 2 is a development view of a mixin grouter in the same example.

[Explanation of symbols]

1 Mixer 2 Dynamic Mixer Rotor (Mixin Groter) 3 Shaft 4 Mixing Chamber 5 Jacket 6 Hot / Cold Water Inlet 7 Hot / Cold Water Outlet 8 Curing Agent Inflow Channel 9 Curing Agent Discharge Side Flow Channel 10 Curing Agent Circulation Side Flow Channel 11 Main Agent Inflow Path 12 Main Agent Discharge Side Flow Path 13 Main Agent Circulation Side Flow Path 14 Discharge Port 15 3 Way Valve 16 3 Way Valve 17 Compressed Air Inlet 18 Compressed Air Inlet

Claims (3)

[Claims] 1. An apparatus for mixing a base material of a thermosetting resin and a curing agent, wherein a rotor shape of a dynamic mixer in a mixing chamber has a groove shape so that the liquid flows backward when the rotor is rotated, and the mixed solution is discharged. A thermosetting resin mixing device having no back pressure valve at the outlet. 2. A main agent discharge side flow path and a hardening agent discharge side flow path communicating with the upper part of the mixing chamber are respectively provided with three-way valves, and the three-way valves provide respective inflow paths for the main agent and the hardening agent and each discharge side flow path. In addition to making it possible to switch between the case of communicating with and the case of communicating with each inflow path and each circulation side flow path,
2. The heat according to claim 1, wherein the three-way valve is provided with a compressed air inlet, and compressed air can be introduced into the mixing chamber when each inflow path and each circulation side flow path are in communication with each other. Mixer for curable resin. 3. The thermosetting resin composition according to claim 1, wherein a jacket for passing hot and cold water is provided around the mixing chamber to heat and cool the resin in the mixing chamber. Mixing device for resin.